JP2500821Y2 - Combiner for head-up display - Google Patents

Description

[Detailed Description of the Invention] [Industrial application] The present invention is particularly applicable to a head-up display (HU) of an automobile.
D) for combiners.

[Prior Art] Conventionally, many HUD combiners made of a metal oxide film have been proposed, but a single-layer film or a multilayer selective reflection film is mainly used to improve the reflection efficiency of light of a specific wavelength. Has been. However, when the selective reflection film is used as a combiner, the appearance of the car may damage the design of the car due to the difference in color tone between the treated part and the non-treated part. Reflection efficiency is reduced,
On the contrary, it is disadvantageous. In addition, since strict film thickness control is required, the production process is complicated and cost is likely to be increased. As a result, the total film thickness becomes large, and thus it is difficult to obtain sufficient mechanical durability.

[Problem to be solved by the present invention] The purpose of the present invention is to solve the above-mentioned disadvantages of the prior art. In particular, it is an object of the present invention to provide a combiner for head-up display, which has almost no difference in color tone from the non-treatment part and does not impair the design of the vehicle.

[Means for Solving the Problems] The present invention has been made to solve the above-described problems, and a head up display combiner provided at a predetermined portion of the surface of a windshield has a refractive index of 1.8.
400 ~ 1500 with a transparent reflection-increasing film consisting of ~ 2.3 metal oxide
The present invention provides a combiner for head-up display characterized by being formed with an optical film thickness of Å.

FIG. 1 is a plan view showing an example of the combiner of the present invention. The HUD combiner 3 of the present invention is a windshield 2
And a non-selective reflective transparent reflection enhancing film 1 formed on a predetermined portion of the surface of the windshield 2.

In order to exhibit the function of the increased reflection film 1, the increased reflection film 1 needs to have a higher refractive index than the windshield 2, that is, a refractive index of 1.8 to 2.3. Refractive index
If it exceeds 2.3, the edges of the film will become conspicuous and the refractive index
When it is less than 1.8, it is difficult to obtain a preferable reflectance even if the film thickness is increased. Further, since it needs to have a high transmittance, it needs to be made of a transparent metal oxide, and the transparent metal oxide is not particularly limited, but for example, Ti0 ₂ (n (refractive index) = 2.2 to 2.3). ), Zr0 ₂ (n = about 2.
_{0~2.1), Ta 2 0 5 (} n = about 2.1), Sn0 ₂ (n = about 1.9 to 2.
0) and the like, or may be composed of simple oxides such as Ti0 ₂ -Si0 ₂ , Zr0 ₂ -Si0 ₂ , Ti0 ₂ -Zr0.
₂ or the like _{and, In 2 0 3 -Sn0 2 (} n = about 1.9) may be made of a composite oxide such as.

In order to increase the surface reflectance and make the difference in color tone less noticeable than the area where the increased reflection film 1 is not formed, the thickness of the increased reflection film 1 is set to the optical thickness (refractive index n
And the actual film thickness d) 400 to 1500Å, but 700
It is preferably set to ~ 1200Å. When the optical film thickness is within this range, variation in the film thickness is inconspicuous, so that the appearance is preferable and the productivity is good. Also, the optical film thickness is 400-150
If it is 0Å, it is easy to obtain a neutral appearance.

The reflection enhancing film 1 of the present invention is a non-selective reflective transparent film. In the present invention, "non-selective reflectivity" means the maximum reflectance Rmax (incident angle 0 °) and minimum reflectance Rmin of the film surface in an arbitrary 100 nm width in the visible light region (450 to 700 nm).
It means that the difference ΔR = Rmax−Rmin ≦ 5 (%) of (incident angle 0 °). Therefore, there is no large reflection peak at a specific wavelength in the visible light region, and the reflection characteristics shown in FIGS. 2 and 3 are obtained. And the visible light reflectance of the film surface (incident angle of about 0
Is preferably 9 to 18%, if it is lower than 9%, the image to be projected may not be clearly visible, and if it is higher than 18%, the Tv required for the windshield transmission is required.
This is because it becomes difficult to obtain (visible light transmittance) of 70% or more. (In the present invention, "visible light reflectance" means
It means the visible light reflectance defined by JIS R-3106. In the present invention, the color tone "neutral" means that the color tone has the following characteristics. That is,
Letting Δx and Δy be the change widths of the x-coordinate and the y-coordinate of the portion where the enhanced reflection film 1 is formed and the portion where it is not formed, when displayed by the CIE display system, Δx ≦ 0.
01, Δy ≦ 0.01, and Δx ≦ 0.03 for reflected color
It means that Δy ≦ 0.03.

The method for producing the enhanced reflection film 1 is not particularly limited, and a vacuum film forming method such as a vacuum vapor deposition method, a sputtering method, an ion plating method, or a sol-gel method such as an immersion method or a printing method can be used.

As the windshield 2, a laminated glass obtained by joining two pieces of glass through a plastic intermediate film is usually used from the viewpoint of safety, but the invention is not particularly limited to this, and may be a single plate of gas lath. Absent.

The EXAMPLES <Example 1> Ti0 ₂ -Si0 ₂ screen printing method enhanced reflection film 1 mainly composed of, was deposited on 2mm thick clear glass. The optical thickness of the oxide after firing is 804Å (refractive index 2.01, film thickness 4
00Å) and had a neutral color tone.

This glass and a 2 mm thick bronze glass were bonded together with the above-mentioned reflection enhancing film 1 as the outside through a 30 mi1 PVB (polyvinyl butyral) film to form a laminated glass to form a HUD combiner. The visible light transmittance Tv in the 1 part of the enhanced reflection film is 72%, and the visible light reflectance Rv (incident angle 0 °) of the film surface is
It was 14.5%. The Tv of the portion of the glass surface of the combiner on which the increased reflection film 1 was not formed was 82.5%, and the Rv of the glass surface was 8.5%. FIG. 2 shows the reflection characteristics at the incident angles of 60 °, 65 °, and 70 ° in the portion of the reflective film 1 of the combiner. 505nm
The reflectance at an incident angle of 65 ° was about 25%.

The <Example _2> Ti0 2 -Ta 2 0 ₅ screen printing method enhanced reflection film 1 mainly composed of, was deposited on 2mm thick clear glass. After firing, the oxide had an optical film thickness of 850.5Å (refractive index 1.89, film thickness 450Å) and had a neutral color tone.

This glass and a 2 mm thick bronze glass were bonded together with the above-mentioned reflection-increasing film 1 as the outside through a 30 mi1 PVB (polyvinyl butyral) film to form a laminated glass, and a HUD combiner was formed. The visible light transmittance Tv in the portion 1 of the reflection enhancing film is 75%, and the visible light reflectance Rv (incident angle 0 °) of the film thickness is
It was 10.2%. The Tv of the portion of the glass surface of the combiner on which the increased reflection film 1 was not formed was 82.5%, and the Rv of the glass surface was 8.5%. FIG. 3 shows the reflection characteristics at an incident angle of 65 ° in the reflection enhancing film 1 portion of the combiner. The reflectance at an incident angle of 65 ° at 505 nm was about 21%.

By this method, the reflection enhancing film of the HUD combiner obtained had a neutral color tone, had little discomfort, and did not impair the design of the car.

[Effects of the Invention] The present invention can provide a combiner that has little difference in color tone between the portion where the reflection-enhancing film is formed and the portion where the reflection-enhancing film is not formed, and is neutral in appearance and has no strange feeling. Further, since the reflection enhancing film does not have a reflection peak of a specific wavelength, it can be applied not only to HUDs having monochromatic light such as blue and green, but also to HUDs having various color tones. Yes, full-color display is possible.

The present invention can provide the above-described combiner having a high productivity by forming a single metal oxide film.

[Brief description of drawings]

FIG. 1 is a plan view showing an example of a combiner of the present invention, and FIG. 2 is 60 °, 65 ° of the reflection enhancing film surface in Example 1,
FIG. 3 is a graph showing reflection characteristics at an incident angle of 70 °, and FIG. 3 is a graph showing reflection characteristics at an incident angle of 65 ° on the surface of the reflection enhancing film in Example 2. 1: Increased reflection film 2: Windshield 3: Combiner for HUD

Claims (1)

(57) [Scope of utility model registration request] 1. A head up display combiner provided at a predetermined portion of a windshield surface, comprising a transparent reflection-increasing curtain made of a metal oxide having a refractive index of 1.8 to 2.3.
A combiner for head-up display characterized by being formed with an optical film thickness of 0 to 1500Å.